/*******************************************************************************
* Copyright 2022-2025 Intel Corporation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
*     http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*******************************************************************************/

#include "dnnl_test_common.hpp"
#include "gtest/gtest.h"

#include "dnnl_test_macros.hpp"
#include "oneapi/dnnl/dnnl.hpp"

namespace dnnl {

using tag = memory::format_tag;
using dt = memory::data_type;

struct prelu_test_params_t {
    dt src_dt;
    dt wei_dt;
    dt dst_dt;
    tag src_tag;
    tag wei_tag;
    tag dst_tag;
    memory::dims src_dims;
    memory::dims wei_dims;
    bool expect_to_fail;
    dnnl_status_t expected_status;
};

bool generic_check_tag(memory::format_tag ft) {
    return impl::utils::one_of(
            ft, tag::ncdhw, tag::nchw, tag::ncw, tag::nhwc, tag::nwc, tag::any);
}

bool generic_reduce_diff_weights(
        const memory::dims &src_dims, const memory::dims &diff_wei_dims) {
    return impl::utils::array_product(src_dims.data(), src_dims.size())
            != impl::utils::array_product(
                    diff_wei_dims.data(), diff_wei_dims.size());
}

class prelu_test_t : public ::testing::TestWithParam<prelu_test_params_t> {
private:
    prelu_test_params_t p;
    memory src, wei;
    std::shared_ptr<prelu_forward::primitive_desc> pd_fwd_hint;

protected:
    void SetUp() override {
        p = ::testing::TestWithParam<prelu_test_params_t>::GetParam();

        SKIP_IF_CUDA(true, "Prelu primitive not supported by CUDA");
        SKIP_IF_HIP(true, "Prelu primitive not supported by HIP");

        SKIP_IF(unsupported_data_type(p.src_dt, p.wei_dt, p.dst_dt),
                "Engine does not support this data type.");

        SKIP_IF_GENERIC(
                !generic_check_tag(p.src_tag), "Unsupported format tag");
        SKIP_IF_GENERIC(
                !generic_check_tag(p.dst_tag), "Unsupported format tag");
        SKIP_IF_GENERIC(
                !generic_check_tag(p.wei_tag), "Unsupported format tag");
        // XXX: Enable these cases when generic reduction is implemented
        SKIP_IF_GENERIC(generic_reduce_diff_weights(p.src_dims, p.wei_dims),
                "Unsupported configuration");
        SKIP_IF_GENERIC(p.expected_status == dnnl_unimplemented,
                "Test case not supported");

        catch_expected_failures(
                [&]() { Test(); }, p.expect_to_fail, p.expected_status);
    }

    void Forward(prop_kind pk) {
        // prelu specific types and values
        using pd_t = prelu_forward::primitive_desc;

        auto eng = get_test_engine();
        auto strm = make_stream(eng);

        allows_attr_t aa {};

        auto src_md = memory::desc(p.src_dims, p.src_dt, p.src_tag);
        auto wei_md = memory::desc(p.wei_dims, p.wei_dt, p.wei_tag);
        auto dst_md = memory::desc(p.src_dims, p.dst_dt, p.dst_tag);

        // default pd ctor
        auto pd = pd_t();
        // regular pd ctor
        pd = pd_t(eng, pk, src_md, wei_md, dst_md);
        // test all pd ctors
        test_fwd_pd_constructors<pd_t>(pd, aa, pk, src_md, wei_md, dst_md);
        pd_fwd_hint = std::make_shared<pd_t>(pd);

        EXPECT_ANY_THROW(prelu_forward(pd, {}));
        // default primitive ctor
        auto prelu = prelu_forward();
        // regular primitive ctor
        prelu = prelu_forward(pd);

        // check primitive kind is prelu
        ASSERT_TRUE(prelu.get_kind() == primitive::kind::prelu);
        // query for descs from pd
        const auto src_desc = pd.src_desc();
        const auto wei_desc = pd.weights_desc();
        const auto dst_desc = pd.dst_desc();
        // query for src_desc via exec arg
        ASSERT_TRUE(pd.query_md(query::exec_arg_md, DNNL_ARG_SRC) == src_desc);
        if (p.src_tag != tag::any) { ASSERT_TRUE(src_md == src_desc); }
        // query for weights_desc via exec arg
        ASSERT_TRUE(
                pd.query_md(query::exec_arg_md, DNNL_ARG_WEIGHTS) == wei_desc);
        if (p.src_tag != tag::any) { ASSERT_TRUE(wei_md == wei_desc); }
        // query for dst_desc via exec arg
        ASSERT_TRUE(pd.query_md(query::exec_arg_md, DNNL_ARG_DST) == dst_desc);
        if (p.dst_tag != tag::any) { ASSERT_TRUE(dst_md == dst_desc); }

        // query primitive parameters
        ASSERT_EQ(pd.get_prop_kind(), pk);

        // check primitive returns zero_md for all rest md
        ASSERT_TRUE(pd.diff_src_desc().is_zero());
        ASSERT_TRUE(pd.diff_dst_desc().is_zero());
        ASSERT_TRUE(pd.diff_weights_desc().is_zero());

        src = test::make_memory(src_desc, eng);
        wei = test::make_memory(wei_desc, eng);
        auto dst = test::make_memory(dst_desc, eng);

        fill_data(p.src_dt, src, 1, 1);
        fill_data(p.wei_dt, wei, 2, 2);
        // test out-place mode
        prelu.execute(strm,
                {{DNNL_ARG_SRC, src}, {DNNL_ARG_WEIGHTS, wei},
                        {DNNL_ARG_DST, dst}});
        strm.wait();
    }

    void Backward() {
        // prelu specific types and values
        using pd_t = prelu_backward::primitive_desc;
        using hint_pd_t = prelu_forward::primitive_desc;
        allows_attr_t aa {}; // doesn't support anything

        auto eng = get_test_engine();
        auto strm = make_stream(eng);

        auto src_md = memory::desc(p.src_dims, p.src_dt, p.src_tag);
        auto wei_md = memory::desc(p.wei_dims, p.wei_dt, p.wei_tag);
        auto diff_src_md = memory::desc(p.src_dims, p.src_dt, p.src_tag);
        auto diff_wei_md = memory::desc(p.wei_dims, p.wei_dt, p.wei_tag);
        auto diff_dst_md = memory::desc(p.src_dims, p.dst_dt, p.dst_tag);

        // default pd ctor
        auto pd = pd_t();
        // regular pd ctor
        pd = pd_t(eng, src_md, wei_md, diff_src_md, diff_wei_md, diff_dst_md,
                *pd_fwd_hint);
        // test all pd ctors
        test_bwd_pd_constructors<pd_t, hint_pd_t>(pd, *pd_fwd_hint, aa, src_md,
                wei_md, diff_src_md, diff_wei_md, diff_dst_md);

        EXPECT_ANY_THROW(prelu_backward(pd, {}));
        // default primitive ctor
        auto prelu = prelu_backward();
        // regular primitive ctor
        prelu = prelu_backward(pd);

        // check primitive kind is prelu
        ASSERT_TRUE(prelu.get_kind() == primitive::kind::prelu);

        // query for descs from pd
        const auto src_desc = pd.src_desc();
        const auto wei_desc = pd.weights_desc();
        const auto diff_src_desc = pd.diff_src_desc();
        const auto diff_wei_desc = pd.diff_weights_desc();
        const auto diff_dst_desc = pd.diff_dst_desc();
        // query for src_desc via exec arg
        ASSERT_TRUE(pd.query_md(query::exec_arg_md, DNNL_ARG_SRC) == src_desc);
        if (p.src_tag != tag::any) { ASSERT_TRUE(src_md == src_desc); }
        // query for weights_desc via exec arg
        ASSERT_TRUE(
                pd.query_md(query::exec_arg_md, DNNL_ARG_WEIGHTS) == wei_desc);
        if (p.src_tag != tag::any) { ASSERT_TRUE(wei_md == wei_desc); }
        // query for diff_src_desc via exec arg
        ASSERT_TRUE(pd.query_md(query::exec_arg_md, DNNL_ARG_DIFF_SRC)
                == diff_src_desc);
        if (p.src_tag != tag::any) {
            ASSERT_TRUE(diff_src_md == diff_src_desc);
        }
        // query for diff_wei_desc via exec arg
        ASSERT_TRUE(pd.query_md(query::exec_arg_md, DNNL_ARG_DIFF_WEIGHTS)
                == diff_wei_desc);
        if (p.src_tag != tag::any) {
            ASSERT_TRUE(diff_wei_md == diff_wei_desc);
        }
        // query for diff_dst_desc via exec arg
        ASSERT_TRUE(pd.query_md(query::exec_arg_md, DNNL_ARG_DIFF_DST)
                == diff_dst_desc);
        if (p.dst_tag != tag::any) {
            ASSERT_TRUE(diff_dst_md == diff_dst_desc);
        }

        // query primitive parameters
        ASSERT_EQ(pd.get_prop_kind(), prop_kind::backward);

        // check primitive returns zero_md for all rest md
        ASSERT_TRUE(pd.dst_desc().is_zero());

        auto diff_src = test::make_memory(diff_src_desc, eng);
        auto diff_wei = test::make_memory(diff_wei_desc, eng);
        auto diff_dst = test::make_memory(diff_dst_desc, eng);

        fill_data(p.dst_dt, diff_dst, 2, 2);

        // test out-place mode
        prelu.execute(strm,
                {{DNNL_ARG_SRC, src}, {DNNL_ARG_WEIGHTS, wei},
                        {DNNL_ARG_DIFF_SRC, diff_src},
                        {DNNL_ARG_DIFF_WEIGHTS, diff_wei},
                        {DNNL_ARG_DIFF_DST, diff_dst}});
        strm.wait();
    }

    void Test() {
        const bool is_int8 = p.src_dt == dt::s8 || p.src_dt == dt::u8;
        std::vector<prop_kind> pks = {is_int8 ? prop_kind::forward_inference
                                              : prop_kind::forward_training};

        for (auto pk : pks) {
            Forward(pk);

            bool to_continue = pk != prop_kind::forward_training;
            if (to_continue) continue;

            Backward();
        }
    }

    bool is_fwd(prop_kind pk) const {
        return pk == prop_kind::forward_training
                || pk == prop_kind::forward_inference;
    }
};

using tp = prelu_test_params_t;

TEST_P(prelu_test_t, TestsPrelu) {}

INSTANTIATE_TEST_SUITE_P(Test_Prelu_EF, prelu_test_t,
        ::testing::Values(
                // Negative dims
                tp {dt::f32, dt::f32, dt::f32, tag::nchw, tag::nchw, tag::nchw,
                        {2, -4, 128, 256}, {2, 4, 128, 256}, true,
                        dnnl_invalid_arguments},
                // Negative dims
                tp {dt::f32, dt::f32, dt::f32, tag::nchw, tag::nchw, tag::nchw,
                        {2, 4, 128, 256}, {2, 4, -128, 256}, true,
                        dnnl_invalid_arguments},
                // Incompatible dims
                tp {dt::f32, dt::f32, dt::f32, tag::nchw, tag::nchw, tag::nchw,
                        {2, 4, 128, 256}, {2, 4, 2, 2}, true,
                        dnnl_invalid_arguments},
                // Tag for src on forward is not specified
                tp {dt::f32, dt::f32, dt::f32, tag::any, tag::nchw, tag::nchw,
                        {2, 4, 128, 256}, {2, 4, 128, 256}, true,
                        dnnl_invalid_arguments},
                // Data type for src is not specified
                tp {dt::undef, dt::f32, dt::f32, tag::nchw, tag::nchw,
                        tag::nchw, {2, 4, 128, 256}, {2, 4, 128, 256}, true,
                        dnnl_invalid_arguments},
                // Different data types are not supported
                tp {dt::f32, dt::f32, dt::bf16, tag::nchw, tag::nchw, tag::nchw,
                        {2, 4, 128, 256}, {2, 4, 128, 256}, true,
                        dnnl_unimplemented},
                // Different memory formats are not supported
                tp {dt::f32, dt::f32, dt::f32, tag::nchw, tag::nchw, tag::nhwc,
                        {2, 4, 128, 256}, {2, 4, 128, 256}, true,
                        dnnl_unimplemented}));

static auto all_cases = [](dt src_dt, dt wei_dt, dt dst_dt) {
    return ::testing::Values(tp {src_dt, wei_dt, dst_dt, tag::nwc, tag::nwc,
                                     tag::nwc, {2, 16, 10}, {2, 16, 10}},
            tp {src_dt, wei_dt, dst_dt, tag::ncw, tag::ncw, tag::ncw,
                    {2, 64, 27}, {1, 1, 1}},
            tp {src_dt, wei_dt, dst_dt, tag::nhwc, tag::nhwc, tag::nhwc,
                    {2, 15, 10, 8}, {2, 15, 10, 8}},
            tp {src_dt, wei_dt, dst_dt, tag::nchw, tag::nchw, tag::nchw,
                    {2, 64, 27, 27}, {1, 64, 1, 1}},
            tp {src_dt, wei_dt, dst_dt, tag::nChw8c, tag::nChw8c, tag::nChw8c,
                    {2, 16, 16, 8}, {1, 16, 1, 1}},
            tp {src_dt, wei_dt, dst_dt, tag::nChw16c, tag::nChw16c,
                    tag::nChw16c, {2, 16, 4, 4}, {1, 1, 1, 1}},
            tp {src_dt, wei_dt, dst_dt, tag::ncdhw, tag::ncdhw, tag::ncdhw,
                    {2, 64, 7, 7, 7}, {1, 1, 1, 1, 1}},
            tp {src_dt, wei_dt, dst_dt, tag::ndhwc, tag::ndhwc, tag::ndhwc,
                    {10, 10, 10, 10, 10}, {10, 10, 10, 10, 10}},
            tp {src_dt, wei_dt, dst_dt, tag::nCdhw16c, tag::nCdhw16c,
                    tag::nCdhw16c, {4, 16, 2, 2, 2}, {1, 16, 1, 1, 1}});
};

#define EXPAND_DTS(src, wei, dst) \
    memory::data_type::src, memory::data_type::wei, memory::data_type::dst

#define INST_TEST_CASE(name, suite, ...) \
    INSTANTIATE_TEST_SUITE_P(name, prelu_test_t, suite(__VA_ARGS__));

#define CPU_INST_TEST_CASE(name, suite, ...) \
    CPU_INSTANTIATE_TEST_SUITE_P(name, prelu_test_t, suite(__VA_ARGS__));

#define GPU_INST_TEST_CASE(name, suite, ...) \
    GPU_INSTANTIATE_TEST_SUITE_P(name, prelu_test_t, suite(__VA_ARGS__));

INST_TEST_CASE(PreluSimpleF32, all_cases, EXPAND_DTS(f32, f32, f32));
INST_TEST_CASE(PreluSimpleBF16, all_cases, EXPAND_DTS(bf16, bf16, bf16));
INST_TEST_CASE(PreluSimpleBF16F32, all_cases, EXPAND_DTS(bf16, f32, bf16));
INST_TEST_CASE(PreluSimpleF16, all_cases, EXPAND_DTS(f16, f16, f16));
INST_TEST_CASE(PreluSimpleU8, all_cases, EXPAND_DTS(u8, u8, u8));
INST_TEST_CASE(PreluSimpleS8, all_cases, EXPAND_DTS(s8, s8, s8));

} // namespace dnnl
